background image

 

MIC2039  

Evaluation Board 

High-Accuracy, High-Side, Adjustable 

Current Limit Power Switch 

 

 

 

 

Ramp Control is a trademark of Micrel, Inc. 

Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1 (408) 944-0800 • fax + 1 (408) 474-1000 • 

http://www.micrel.com

  

October 2012 

 

M9999-100112-A 

 

General Description 

The MIC2039 is a high-side MOSFET power distribution 
switch providing increased system reliability by using 5% 
current limit accuracy. 
The MIC2039 has an operating input voltage range from 
2.5V to 5.5V, is internally current limited, and has thermal 
shutdown to protect the device and system. The MIC2039 
is offered with either active-high or active-low logic level 
enable input controls. It has an open drain fault status 
output flag with a built-in 32ms delay that asserts low 
during overcurrent or thermal shutdown conditions. 
The MIC2039 switch features an adjustable output current 
limit that is resistor programmable from 0.2A to 2.5A. The 
MIC2039 switch also offers a unique Kickstart feature, 
which allows momentary high-current surges up to the 
secondary current limit (I

LIMIT_2nd

) during startup or while 

operating in steady state. This is useful for charging loads 
with high inrush currents, such as capacitors. After an 
overcurrent condition is established, these switches enter 
into a constant current limit mode unless the die 
temperature exceeds the thermal shutdown specification.   
The MIC2039 is offered in both 6-pin SOT-23 and 6-pin 
2mm x 2mm thin DFN packages. It has an operating 
junction temperature range of 

40°C to +125°C. 

Requirements 

The MIC2039 evaluation board requires a single power 
supply to provide V

IN

. The V

IN

 power supply must be able 

to deliver a minimum of 2.5V and more than 1.5A 
capability. The output load can either be active or passive. 

Precautions 

The evaluation board does not have reverse polarity 
protection. Applying a negative voltage to the V

IN

 terminal 

can damage the device. In addition, the maximum V

IN

 

operating voltage of the MIC2039 evaluation board is 5.5V. 
Exceeding 5.5V on V

IN

 can permanently damage the 

device.  

Getting Started 

1. 

Connect an external supply to V

IN

 terminal

.  

Apply the desired input voltage to the V

IN

 and ground 

terminals of the evaluation board, paying careful 
attention to polarity and supply voltage. The user can 
place an ammeter between the input supply and the 
V

IN

 terminal to the evaluation board. Make sure that 

the supply voltage is monitored at the V

IN 

terminal. The 

ammeter and/or power lead resistance can reduce the 
voltage supplied to the input. 

2. 

Connect the load to the V

OUT

 and ground terminals.

  

The load can be either passive (resistive) or active (as 
in an electronic load). The user can place an ammeter 
between the load and the V

OUT

 terminal. Make sure 

that the output voltage is monitored at the V

OUT

 

terminal.  

3. 

Enable the switch. 

The MIC2039 evaluation boards are configured for 
default enable using a 10k

 pull-up resistor from the 

ENABLE pin to VIN. To disable the switch, place a 
jumper short across the jumper pins at TP2. 

4. 

Fault detection 

The MIC2039 is equipped with an error flag pin, 
FAULT/. TP3 is provided to monitor the FAULT/ pin. 

 

Ordering Information 

Part Number 

Description 

MIC2039-05AYM6 EV 

Evaluation board featuring the  
MIC2039AYM6 Power Switch 
Current limit is set for 500mA  

MIC2039-1AYM6 EV 

Evaluation board featuring the  
MIC2039AYM6 Power Switch 
Current limit is set for 1A  

MIC2039-05AYMT EV 

Evaluation board featuring the  
MIC2039AYMT Power Switch 
Current limit is set for 500mA 

MIC2039-1AYMT EV 

Evaluation board featuring the  
MIC2039AYMT Power Switch 
Current limit is set for 1A 

 

Содержание MIC2039

Страница 1: ...d more than 1 5A capability The output load can either be active or passive Precautions The evaluation board does not have reverse polarity protection Applying a negative voltage to the VIN terminal c...

Страница 2: ...of the IC The following equation determines the value of R3 LIMIT 289 I R3 Eq 1 where ILIMIT is the typical current limit from the electrical table If the output current exceeds the set current limit...

Страница 3: ...Micrel Inc MIC2039 Evaluation Board October 2012 3 M9999 100112 A Evaluation Board Schematics MIC2039xYMT Evaluation Board MIC2039xYM6 Evaluation Board...

Страница 4: ...ramic capacitor X5R 0603 2 R1 R2 CRCW060310K0FKEA Vishay Dale 3 10k film resistor 0603 1 2 R3 CRCW06032870FKEA CRCW06031430FKEA Vishay Dale 287 film resistor 0603 1 or 143 film resistor 0603 1 1 U1 MI...

Страница 5: ...Micrel Inc MIC2039 Evaluation Board October 2012 5 M9999 100112 A Evaluation Board PCB Layout MIC2039xYMT Evaluation Board Top Layer MIC2039xYMT Evaluation Board Bottom Layer...

Страница 6: ...Micrel Inc MIC2039 Evaluation Board October 2012 6 M9999 100112 A Evaluation Board PCB Layout Continued MIC2039xYM6 Evaluation Board Top Layer MIC2039xYM6 Evaluation Board Bottom Layer...

Страница 7: ...ever and Micrel disclaims any express or implied warranty relating to the sale and or use of Micrel products including liability or warranties relating to fitness for a particular purpose merchantabil...

Отзывы: